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http://dx.doi.org/10.4313/JKEM.2020.33.5.355

Effects of Process Conditions on Electrode Patterning by Screen Printing Method  

Lee, Na-Young (Electronic Convergence Materials Division, Institute of Korea Ceramic Engineering and Technology)
Kim, Dong-Chul (Electronic Convergence Materials Division, Institute of Korea Ceramic Engineering and Technology)
Yeo, Dong-Hun (Electronic Convergence Materials Division, Institute of Korea Ceramic Engineering and Technology)
Lee, Joo-Sung (BOBOO Hitech Co., Ltd)
Yoon, Sang Ok (Department of Ceramic Engineering, Gangneung-Wonju Natial University)
Shin, Hyo-Soon (Electronic Convergence Materials Division, Institute of Korea Ceramic Engineering and Technology)
Lee, Joon-Hyung (Department of Materials Science and Engineering, School of Materials Science and Engineering, Kyungpook National University)
Publication Information
Journal of the Korean Institute of Electrical and Electronic Material Engineers / v.33, no.5, 2020 , pp. 355-359 More about this Journal
Abstract
In this study, image analysis and surface roughness measurements using an optical microscope are presented as a method to quantitatively evaluate the results of screen printing. Using this method, the squeegee speed, which is the printing process condition, and the printability of the electrode according to the screen mesh were evaluated. Increasing the squeegee speed in the printing process acts as a process element that increases the line width precision of the printed electrode and lowers the surface roughness of the printed surface. Furthermore, the edge roughness, which indicates the clarity of printing, was not significantly affected by the speed of the squeegee during printing. The print thickness increases in proportion to the squeegee speed, but is largely dependent on the screen thickness.
Keywords
Tape casting; Screen printing; Screen mask; Squeegee speed;
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